public DuplicatorForContractsAndClosures(Module module, Method sourceMethod, Method targetMethod,
ContractNodes contractNodes, bool mapParameters)
: base(module, targetMethod.DeclaringType)
{
this.sourceMethod = sourceMethod;
this.targetMethod = targetMethod;
this.RemoveNameForLocals = true;
Duplicator dup = this;
if (mapParameters)
{
if (sourceMethod.ThisParameter != null)
{
if (targetMethod.ThisParameter != null)
{
dup.DuplicateFor[sourceMethod.ThisParameter.UniqueKey] = targetMethod.ThisParameter;
}
else
{
// target is a static wrapper. But duplicator cannot handle This -> Parameter conversion
// so we handle it explicitly here in this visitor.
replaceThisWithParameter = targetMethod.Parameters[0];
}
}
if (sourceMethod.Parameters != null && targetMethod.Parameters != null
&& sourceMethod.Parameters.Count == targetMethod.Parameters.Count)
{
for (int i = 0, n = sourceMethod.Parameters.Count; i < n; i++)
{
dup.DuplicateFor[sourceMethod.Parameters[i].UniqueKey] = targetMethod.Parameters[i];
}
}
}
var originalType = HelperMethods.IsContractTypeForSomeOtherType(sourceMethod.DeclaringType, contractNodes);
if (originalType != null)
{
var contractType = this.contractClass = sourceMethod.DeclaringType;
while (contractType.Template != null)
{
contractType = contractType.Template;
}
while (originalType.Template != null)
{
originalType = originalType.Template;
}
// forward ContractType<A,B> -> originalType<A',B'>
this.contractClassToForward = contractType;
this.targetTypeToForwardTo = originalType;
//dup.DuplicateFor[contractType.UniqueKey] = originalType;
}
}
public override Expression VisitParameter(Parameter parameter)
{
if (parameter == null) return null;
var oe = new OldExpression(parameter);
oe.Type = parameter.Type;
return oe;
}
public override void VisitParameter(Parameter parameter)
{
if (parameter == null) return;
if (this.BoundVars.Contains(parameter) && !this.FoundVariables.Contains(parameter))
{
this.FoundVariables.Add(parameter);
this.FoundReferences.Add(parameter);
}
}
public override Expression VisitParameter(Parameter parameter)
{
Expression re = base.VisitParameter(parameter);
TypeNode typeNode = (TypeNode)parameter.TypeExpression;
parameterType.Add(typeNode);
return re;
}
public override Expression VisitParameter(Parameter parameter)
{
if (parameter == null) return null;
object result = map[parameter.UniqueKey];
if (result != null) return (Expression) result;
return base.VisitParameter(parameter);
}
public override Expression VisitParameter(Parameter parameter)
{
if (parameter == null) return null;
if (parameter.DeclaringMethod == abbreviation)
{
var argIndex = parameter.ParameterListIndex;
if (argIndex >= actuals.Count) throw new InvalidOperationException("bad parameter/actual list");
return (Expression) this.Visit(actuals[argIndex]);
}
if (parameter.DeclaringMethod == this.targetMethod)
{
// important lower case. Upper case is Duplicator's target method
return parameter;
}
return base.VisitParameter(parameter);
}
private Method MakeRaiseFailureEventMethod()
{
Parameter kindParameter = new Parameter(Identifier.For("kind"), contractNodes.ContractFailureKind);
Parameter messageParameter = new Parameter(Identifier.For("msg"), SystemTypes.String);
Parameter conditionTextParameter = new Parameter(Identifier.For("conditionTxt"), SystemTypes.String);
Parameter exceptionParameter = new Parameter(Identifier.For("inner"), SystemTypes.Exception);
ParameterList pl = new ParameterList(kindParameter, messageParameter, conditionTextParameter, exceptionParameter);
Block body = new Block(new StatementList());
Method m = new Method(this.RuntimeContractType, null, ContractNodes.RaiseContractFailedEventName, pl, SystemTypes.String, body);
m.Flags = MethodFlags.Assembly | MethodFlags.Static;
m.Attributes = new AttributeList();
this.RuntimeContractType.Members.Add(m);
//
// Generate the following
//
// return String.Format("{0} failed: {1}: {2}", box(kind), conditionText, message);
var stringFormat3 = SystemTypes.String.GetMethod(Identifier.For("Format"), SystemTypes.String, SystemTypes.Object, SystemTypes.Object, SystemTypes.Object);
body.Statements.Add(new Return(new MethodCall(new MemberBinding(null, stringFormat3), new ExpressionList(new Literal("{0} failed: {1}: {2}"), new BinaryExpression(kindParameter, new Literal(contractNodes.ContractFailureKind), NodeType.Box), conditionTextParameter, messageParameter))));
return m;
}
private Method MakeRequiresWithExceptionMethod(string name)
{
Parameter conditionParameter = new Parameter(Identifier.For("condition"), SystemTypes.Boolean);
Parameter messageParameter = new Parameter(Identifier.For("msg"), SystemTypes.String);
Parameter conditionTextParameter = new Parameter(Identifier.For("conditionTxt"), SystemTypes.String);
MethodClassParameter typeArg = new MethodClassParameter();
ParameterList pl = new ParameterList(conditionParameter, messageParameter, conditionTextParameter);
Block body = new Block(new StatementList());
Method m = new Method(this.RuntimeContractType, null, Identifier.For(name), pl, SystemTypes.Void, body);
m.Flags = MethodFlags.Assembly | MethodFlags.Static;
m.Attributes = new AttributeList();
m.TemplateParameters = new TypeNodeList(typeArg);
m.IsGeneric = true;
this.RuntimeContractType.Members.Add(m);
typeArg.Name = Identifier.For("TException");
typeArg.DeclaringMember = m;
typeArg.BaseClass = SystemTypes.Exception;
typeArg.ParameterListIndex = 0;
typeArg.DeclaringModule = this.RuntimeContractType.DeclaringModule;
Block returnBlock = new Block(new StatementList(new Return()));
Block b = new Block(new StatementList());
b.Statements.Add(new Branch(conditionParameter, returnBlock));
//
// Generate the following
//
// // message == null means: yes we handled it. Otherwise it is the localized failure message
// var message = RaiseFailureEvent(ContractFailureKind.Precondition, userMessage, conditionString, null);
// #if assertOnFailure
// if (message != null) {
// Assert(false, message);
// }
// #endif
var messageLocal = new Local(Identifier.For("msg"), SystemTypes.String);
ExpressionList elist = new ExpressionList();
elist.Add(this.PreconditionKind);
elist.Add(messageParameter);
elist.Add(conditionTextParameter);
elist.Add(Literal.Null);
b.Statements.Add(new AssignmentStatement(messageLocal, new MethodCall(new MemberBinding(null, this.RaiseFailureEventMethod), elist)));
if (this.AssertOnFailure)
{
var assertMethod = GetSystemDiagnosticsAssertMethod();
if (assertMethod != null)
{
var skipAssert = new Block();
b.Statements.Add(new Branch(new UnaryExpression(messageLocal, NodeType.LogicalNot), skipAssert));
// emit assert call
ExpressionList assertelist = new ExpressionList();
assertelist.Add(Literal.False);
assertelist.Add(messageLocal);
b.Statements.Add(new ExpressionStatement(new MethodCall(new MemberBinding(null, assertMethod), assertelist)));
b.Statements.Add(skipAssert);
}
}
// // construct exception
// Exception obj = null;
// ConstructorInfo ci = typeof(TException).GetConstructor(new[] { typeof(string), typeof(string) });
// if (ci != null)
// {
// if (reflection.firstArgName == "paramName") {
// exceptionObject = ci.Invoke(new[] { userMessage, message }) as Exception;
// }
// else {
// exceptionObject = ci.Invoke(new[] { message, userMessage }) as Exception;
// }
// }
// else {
// ci = typeof(TException).GetConstructor(new[] { typeof(string) });
// if (ci != null)
// {
// exceptionObject = ci.Invoke(new[] { message }) as Exception;
// }
// }
var exceptionLocal = new Local(Identifier.For("obj"), SystemTypes.Exception);
b.Statements.Add(new AssignmentStatement(exceptionLocal, Literal.Null));
var constructorInfoType = TypeNode.GetTypeNode(typeof(System.Reflection.ConstructorInfo));
Contract.Assume(constructorInfoType != null);
var methodBaseType = TypeNode.GetTypeNode(typeof(System.Reflection.MethodBase));
Contract.Assume(methodBaseType != null);
var constructorLocal = new Local(Identifier.For("ci"), constructorInfoType);
Contract.Assume(SystemTypes.Type != null);
var getConstructorMethod = SystemTypes.Type.GetMethod(Identifier.For("GetConstructor"), SystemTypes.Type.GetArrayType(1));
var typeofExceptionArg = GetTypeFromHandleExpression(typeArg);
var typeofString = GetTypeFromHandleExpression(SystemTypes.String);
var typeArrayLocal = new Local(Identifier.For("typeArray"), SystemTypes.Type.GetArrayType(1));
var typeArray2 = new ConstructArray();
typeArray2.ElementType = SystemTypes.Type;
typeArray2.Rank = 1;
typeArray2.Operands = new ExpressionList(Literal.Int32Two);
var typeArrayInit2 = new Block(new StatementList());
typeArrayInit2.Statements.Add(new AssignmentStatement(typeArrayLocal, typeArray2));
typeArrayInit2.Statements.Add(new AssignmentStatement(new Indexer(typeArrayLocal, new ExpressionList(Literal.Int32Zero), SystemTypes.Type), typeofString));
typeArrayInit2.Statements.Add(new AssignmentStatement(new Indexer(typeArrayLocal, new ExpressionList(Literal.Int32One), SystemTypes.Type), typeofString));
typeArrayInit2.Statements.Add(new ExpressionStatement(typeArrayLocal));
var typeArrayExpression2 = new BlockExpression(typeArrayInit2);
b.Statements.Add(new AssignmentStatement(constructorLocal, new MethodCall(new MemberBinding(typeofExceptionArg, getConstructorMethod), new ExpressionList(typeArrayExpression2))));
var elseBlock = new Block();
b.Statements.Add(new Branch(new UnaryExpression(constructorLocal, NodeType.LogicalNot), elseBlock));
var endifBlock2 = new Block();
var invokeMethod = constructorInfoType.GetMethod(Identifier.For("Invoke"), SystemTypes.Object.GetArrayType(1));
var argArray2 = new ConstructArray();
argArray2.ElementType = SystemTypes.Object;
argArray2.Rank = 1;
argArray2.Operands = new ExpressionList(Literal.Int32Two);
var argArrayLocal = new Local(Identifier.For("argArray"), SystemTypes.Object.GetArrayType(1));
var parameterInfoType = TypeNode.GetTypeNode(typeof(System.Reflection.ParameterInfo));
Contract.Assume(parameterInfoType != null);
var parametersMethod = methodBaseType.GetMethod(Identifier.For("GetParameters"));
var get_NameMethod = parameterInfoType.GetMethod(Identifier.For("get_Name"));
var string_op_EqualityMethod = SystemTypes.String.GetMethod(Identifier.For("op_Equality"), SystemTypes.String, SystemTypes.String);
var elseArgMsgBlock = new Block();
var endIfArgMsgBlock = new Block();
b.Statements.Add(new Branch(new UnaryExpression(new MethodCall(new MemberBinding(null, string_op_EqualityMethod), new ExpressionList(new MethodCall(new MemberBinding(new Indexer(new MethodCall(new MemberBinding(constructorLocal, parametersMethod), new ExpressionList(), NodeType.Callvirt), new ExpressionList(Literal.Int32Zero), parameterInfoType), get_NameMethod), new ExpressionList(), NodeType.Callvirt), new Literal("paramName", SystemTypes.String))), NodeType.LogicalNot), elseArgMsgBlock));
var argArrayInit2 = new Block(new StatementList());
argArrayInit2.Statements.Add(new AssignmentStatement(argArrayLocal, argArray2));
argArrayInit2.Statements.Add(new AssignmentStatement(new Indexer(argArrayLocal, new ExpressionList(Literal.Int32Zero), SystemTypes.Object), messageParameter));
argArrayInit2.Statements.Add(new AssignmentStatement(new Indexer(argArrayLocal, new ExpressionList(Literal.Int32One), SystemTypes.Object), messageLocal));
argArrayInit2.Statements.Add(new ExpressionStatement(argArrayLocal));
var argArrayExpression2 = new BlockExpression(argArrayInit2);
b.Statements.Add(new AssignmentStatement(exceptionLocal, new BinaryExpression(new MethodCall(new MemberBinding(constructorLocal, invokeMethod), new ExpressionList(argArrayExpression2)), new Literal(SystemTypes.Exception), NodeType.Isinst)));
b.Statements.Add(new Branch(null, endIfArgMsgBlock));
b.Statements.Add(elseArgMsgBlock);
var argArrayInit2_1 = new Block(new StatementList());
argArrayInit2_1.Statements.Add(new AssignmentStatement(argArrayLocal, argArray2));
argArrayInit2_1.Statements.Add(new AssignmentStatement(new Indexer(argArrayLocal, new ExpressionList(Literal.Int32Zero), SystemTypes.Object), messageLocal));
argArrayInit2_1.Statements.Add(new AssignmentStatement(new Indexer(argArrayLocal, new ExpressionList(Literal.Int32One), SystemTypes.Object), messageParameter));
argArrayInit2_1.Statements.Add(new ExpressionStatement(argArrayLocal));
var argArrayExpression2_1 = new BlockExpression(argArrayInit2_1);
b.Statements.Add(new AssignmentStatement(exceptionLocal, new BinaryExpression(new MethodCall(new MemberBinding(constructorLocal, invokeMethod), new ExpressionList(argArrayExpression2_1)), new Literal(SystemTypes.Exception), NodeType.Isinst)));
b.Statements.Add(endIfArgMsgBlock);
b.Statements.Add(new Branch(null, endifBlock2));
b.Statements.Add(elseBlock);
var typeArray1 = new ConstructArray();
typeArray1.ElementType = SystemTypes.Type;
typeArray1.Rank = 1;
typeArray1.Operands = new ExpressionList(Literal.Int32One);
var typeArrayInit1 = new Block(new StatementList());
typeArrayInit1.Statements.Add(new AssignmentStatement(typeArrayLocal, typeArray1));
typeArrayInit1.Statements.Add(new AssignmentStatement(new Indexer(typeArrayLocal, new ExpressionList(Literal.Int32Zero), SystemTypes.Type), typeofString));
typeArrayInit1.Statements.Add(new ExpressionStatement(typeArrayLocal));
var typeArrayExpression1 = new BlockExpression(typeArrayInit1);
b.Statements.Add(new AssignmentStatement(constructorLocal, new MethodCall(new MemberBinding(typeofExceptionArg, getConstructorMethod), new ExpressionList(typeArrayExpression1))));
b.Statements.Add(new Branch(new UnaryExpression(constructorLocal, NodeType.LogicalNot), endifBlock2));
var argArray1 = new ConstructArray();
argArray1.ElementType = SystemTypes.Object;
argArray1.Rank = 1;
argArray1.Operands = new ExpressionList(Literal.Int32One);
var argArrayInit1 = new Block(new StatementList());
argArrayInit1.Statements.Add(new AssignmentStatement(argArrayLocal, argArray1));
argArrayInit1.Statements.Add(new AssignmentStatement(new Indexer(argArrayLocal, new ExpressionList(Literal.Int32Zero), SystemTypes.Object), messageLocal));
argArrayInit1.Statements.Add(new ExpressionStatement(argArrayLocal));
var argArrayExpression1 = new BlockExpression(argArrayInit1);
b.Statements.Add(new AssignmentStatement(exceptionLocal, new BinaryExpression(new MethodCall(new MemberBinding(constructorLocal, invokeMethod), new ExpressionList(argArrayExpression1)), new Literal(SystemTypes.Exception), NodeType.Isinst)));
b.Statements.Add(endifBlock2);
// // throw it
// if (exceptionObject == null)
// {
// throw new ArgumentException(displayMessage, message);
// }
// else
// {
// throw exceptionObject;
// }
var thenBlock3 = new Block();
b.Statements.Add(new Branch(exceptionLocal, thenBlock3));
b.Statements.Add(new Throw(new Construct(new MemberBinding(null, SystemTypes.ArgumentException.GetConstructor(SystemTypes.String, SystemTypes.String)), new ExpressionList(messageLocal, messageParameter))));
b.Statements.Add(thenBlock3);
b.Statements.Add(new Throw(exceptionLocal));
b.Statements.Add(returnBlock);
Contract.Assume(body.Statements != null);
body.Statements.Add(b);
Member constructor = null;
AttributeNode attribute = null;
#region Add [DebuggerNonUserCodeAttribute]
if (this.HideFromDebugger) {
TypeNode debuggerNonUserCode = SystemTypes.SystemAssembly.GetType(Identifier.For("System.Diagnostics"), Identifier.For("DebuggerNonUserCodeAttribute"));
if (debuggerNonUserCode != null)
{
constructor = debuggerNonUserCode.GetConstructor();
attribute = new AttributeNode(new MemberBinding(null, constructor), null, AttributeTargets.Method);
m.Attributes.Add(attribute);
}
}
#endregion Add [DebuggerNonUserCodeAttribute]
TypeNode reliabilityContract = SystemTypes.SystemAssembly.GetType(Identifier.For("System.Runtime.ConstrainedExecution"), Identifier.For("ReliabilityContractAttribute"));
TypeNode consistency = SystemTypes.SystemAssembly.GetType(Identifier.For("System.Runtime.ConstrainedExecution"), Identifier.For("Consistency"));
TypeNode cer = SystemTypes.SystemAssembly.GetType(Identifier.For("System.Runtime.ConstrainedExecution"), Identifier.For("Cer"));
if (reliabilityContract != null && consistency != null && cer != null)
{
constructor = reliabilityContract.GetConstructor(consistency, cer);
if (constructor != null)
{
attribute = new AttributeNode(
new MemberBinding(null, constructor),
new ExpressionList(
new Literal(System.Runtime.ConstrainedExecution.Consistency.WillNotCorruptState, consistency),
new Literal(System.Runtime.ConstrainedExecution.Cer.MayFail, cer)),
AttributeTargets.Method
);
m.Attributes.Add(attribute);
}
}
return m;
}
private Method MakeFailureMethod()
{
Parameter kindParameter = new Parameter(Identifier.For("kind"), contractNodes.ContractFailureKind);
Parameter messageParameter = new Parameter(Identifier.For("msg"), SystemTypes.String);
Parameter conditionTextParameter = new Parameter(Identifier.For("conditionTxt"), SystemTypes.String);
Parameter exceptionParameter = new Parameter(Identifier.For("inner"), SystemTypes.Exception);
ParameterList pl = new ParameterList(kindParameter, messageParameter, conditionTextParameter, exceptionParameter);
Block body = new Block(new StatementList());
Method m = new Method(this.RuntimeContractType, null, ContractNodes.ReportFailureName, pl, SystemTypes.Void, body);
m.Flags = MethodFlags.Assembly | MethodFlags.Static;
m.Attributes = new AttributeList();
this.RuntimeContractType.Members.Add(m);
Block returnBlock = new Block(new StatementList(new Return()));
//
// Generate the following
//
// // message == null means: yes we handled it. Otherwise it is the localized failure message
// var message = RaiseFailureEvent(kind, userMessage, conditionString, inner);
// if (message == null) return;
var messageLocal = new Local(Identifier.For("msg"), SystemTypes.String);
ExpressionList elist = new ExpressionList();
elist.Add(kindParameter);
elist.Add(messageParameter);
elist.Add(conditionTextParameter);
elist.Add(exceptionParameter);
body.Statements.Add(new AssignmentStatement(messageLocal, new MethodCall(new MemberBinding(null, this.RaiseFailureEventMethod), elist)));
body.Statements.Add(new Branch(new UnaryExpression(messageLocal, NodeType.LogicalNot), returnBlock));
body.Statements.Add(new ExpressionStatement(new MethodCall(new MemberBinding(null, this.TriggerFailureMethod), new ExpressionList(kindParameter, messageLocal, messageParameter, conditionTextParameter, exceptionParameter))));
body.Statements.Add(returnBlock);
return m;
}
private Class MakeContractException() {
Class contractExceptionType;
#region If we're rewriting an assembly for v4 or above and it *isn't* Silverlight (so serialization support is needed), then use new embedded dll as the type
if (4 <= TargetPlatform.MajorVersion) {
var iSafeSerializationData = SystemTypes.SystemAssembly.GetType(Identifier.For("System.Runtime.Serialization"), Identifier.For("ISafeSerializationData")) as Interface;
if (iSafeSerializationData != null) {
// Just much easier to write the C# and have the compiler generate everything than to try and create it all manually
System.Reflection.Assembly embeddedAssembly;
Stream embeddedAssemblyStream;
embeddedAssembly = System.Reflection.Assembly.GetExecutingAssembly();
embeddedAssemblyStream = embeddedAssembly.GetManifestResourceStream("Microsoft.Contracts.Foxtrot.InternalException.dll");
byte[] data = new byte[0];
using (var br = new BinaryReader(embeddedAssemblyStream)) {
var len = embeddedAssemblyStream.Length;
if (len < Int32.MaxValue)
data = br.ReadBytes((int)len);
AssemblyNode assemblyNode = AssemblyNode.GetAssembly(data, TargetPlatform.StaticAssemblyCache, true, false, true);
contractExceptionType = assemblyNode.GetType(Identifier.For(""), Identifier.For("ContractException")) as Class;
}
if (contractExceptionType == null)
throw new RewriteException("Tried to create the ContractException type from the embedded dll, but failed");
var d = new Duplicator(this.targetAssembly, this.RuntimeContractType);
d.FindTypesToBeDuplicated(new TypeNodeList(contractExceptionType));
var ct = d.Visit(contractExceptionType);
contractExceptionType = (Class)ct;
contractExceptionType.Flags |= TypeFlags.NestedPrivate;
this.RuntimeContractType.Members.Add(contractExceptionType);
return contractExceptionType;
}
}
#endregion
contractExceptionType = new Class(this.targetAssembly, this.RuntimeContractType, new AttributeList(), TypeFlags.Class | TypeFlags.NestedPrivate | TypeFlags.Serializable, null, Identifier.For("ContractException"), SystemTypes.Exception, null, null);
RewriteHelper.TryAddCompilerGeneratedAttribute(contractExceptionType);
var kindField = new Field(contractExceptionType, null, FieldFlags.Private, Identifier.For("_Kind"), contractNodes.ContractFailureKind, null);
var userField = new Field(contractExceptionType, null, FieldFlags.Private, Identifier.For("_UserMessage"), SystemTypes.String, null);
var condField = new Field(contractExceptionType, null, FieldFlags.Private, Identifier.For("_Condition"), SystemTypes.String, null);
contractExceptionType.Members.Add(kindField);
contractExceptionType.Members.Add(userField);
contractExceptionType.Members.Add(condField);
#region Constructor for setting the fields
var parameters = new ParameterList();
var kindParam = new Parameter(Identifier.For("kind"), this.contractNodes.ContractFailureKind);
var failureParam = new Parameter(Identifier.For("failure"), SystemTypes.String);
var usermsgParam = new Parameter(Identifier.For("usermsg"), SystemTypes.String);
var conditionParam = new Parameter(Identifier.For("condition"), SystemTypes.String);
var innerParam = new Parameter(Identifier.For("inner"), SystemTypes.Exception);
parameters.Add(kindParam);
parameters.Add(failureParam);
parameters.Add(usermsgParam);
parameters.Add(conditionParam);
parameters.Add(innerParam);
var body = new Block(new StatementList());
var ctor = new InstanceInitializer(contractExceptionType, null, parameters, body);
ctor.Flags |= MethodFlags.Public | MethodFlags.HideBySig;
ctor.CallingConvention = CallingConventionFlags.HasThis;
body.Statements.Add(new ExpressionStatement(new MethodCall(new MemberBinding(ctor.ThisParameter, contractExceptionType.BaseClass.GetConstructor(SystemTypes.String, SystemTypes.Exception)), new ExpressionList(failureParam, innerParam))));
body.Statements.Add(new AssignmentStatement(new MemberBinding(ctor.ThisParameter, kindField), kindParam));
body.Statements.Add(new AssignmentStatement(new MemberBinding(ctor.ThisParameter, userField), usermsgParam));
body.Statements.Add(new AssignmentStatement(new MemberBinding(ctor.ThisParameter, condField), conditionParam));
body.Statements.Add(new Return());
contractExceptionType.Members.Add(ctor);
#endregion
if (SystemTypes.SerializationInfo != null && SystemTypes.SerializationInfo.BaseClass != null) {
// Silverlight (e.g.) is a platform that doesn't support serialization. So check to make sure the type really exists.
//
var baseCtor = SystemTypes.Exception.GetConstructor(SystemTypes.SerializationInfo, SystemTypes.StreamingContext);
if (baseCtor != null) {
#region Deserialization Constructor
parameters = new ParameterList();
var info = new Parameter(Identifier.For("info"), SystemTypes.SerializationInfo);
var context = new Parameter(Identifier.For("context"), SystemTypes.StreamingContext);
parameters.Add(info);
parameters.Add(context);
body = new Block(new StatementList());
ctor = new InstanceInitializer(contractExceptionType, null, parameters, body);
ctor.Flags |= MethodFlags.Private | MethodFlags.HideBySig;
ctor.CallingConvention = CallingConventionFlags.HasThis;
// : base(info, context)
body.Statements.Add(new ExpressionStatement(new MethodCall(new MemberBinding(ctor.ThisParameter, baseCtor), new ExpressionList(info, context))));
// _Kind = (ContractFailureKind)info.GetInt32("Kind");
var getInt32 = SystemTypes.SerializationInfo.GetMethod(Identifier.For("GetInt32"), SystemTypes.String);
body.Statements.Add(new AssignmentStatement(
new MemberBinding(new This(), kindField),
new MethodCall(new MemberBinding(info, getInt32), new ExpressionList(new Literal("Kind", SystemTypes.String)))
));
// _UserMessage = info.GetString("UserMessage");
var getString = SystemTypes.SerializationInfo.GetMethod(Identifier.For("GetString"), SystemTypes.String);
body.Statements.Add(new AssignmentStatement(
new MemberBinding(new This(), userField),
new MethodCall(new MemberBinding(info, getString), new ExpressionList(new Literal("UserMessage", SystemTypes.String)))
));
// _Condition = info.GetString("Condition");
body.Statements.Add(new AssignmentStatement(
new MemberBinding(new This(), condField),
new MethodCall(new MemberBinding(info, getString), new ExpressionList(new Literal("Condition", SystemTypes.String)))
));
body.Statements.Add(new Return());
contractExceptionType.Members.Add(ctor);
#endregion
#region GetObjectData
var securityCriticalCtor = SystemTypes.SecurityCriticalAttribute.GetConstructor();
var securityCriticalAttribute = new AttributeNode(new MemberBinding(null, securityCriticalCtor), null, System.AttributeTargets.Method);
var attrs = new AttributeList(securityCriticalAttribute);
parameters = new ParameterList();
info = new Parameter(Identifier.For("info"), SystemTypes.SerializationInfo);
context = new Parameter(Identifier.For("context"), SystemTypes.StreamingContext);
parameters.Add(info);
parameters.Add(context);
body = new Block(new StatementList());
var getObjectDataName = Identifier.For("GetObjectData");
var getObjectData = new Method(contractExceptionType, attrs, getObjectDataName, parameters, SystemTypes.Void, body);
getObjectData.CallingConvention = CallingConventionFlags.HasThis;
// public override
getObjectData.Flags = MethodFlags.Public | MethodFlags.Virtual;
// base.GetObjectData(info, context);
var baseGetObjectData = SystemTypes.Exception.GetMethod(getObjectDataName, SystemTypes.SerializationInfo, SystemTypes.StreamingContext);
body.Statements.Add(new ExpressionStatement(
new MethodCall(new MemberBinding(new This(), baseGetObjectData), new ExpressionList(info, context), NodeType.Call, SystemTypes.Void)
));
// info.AddValue("Kind", _Kind);
var addValueObject = SystemTypes.SerializationInfo.GetMethod(Identifier.For("AddValue"), SystemTypes.String, SystemTypes.Object);
body.Statements.Add(new ExpressionStatement(
new MethodCall(new MemberBinding(info, addValueObject), new ExpressionList(new Literal("Kind", SystemTypes.String), new BinaryExpression(new MemberBinding(new This(), kindField), new Literal(contractNodes.ContractFailureKind), NodeType.Box)), NodeType.Call, SystemTypes.Void)
));
// info.AddValue("UserMessage", _UserMessage);
body.Statements.Add(new ExpressionStatement(
new MethodCall(new MemberBinding(info, addValueObject), new ExpressionList(new Literal("UserMessage", SystemTypes.String), new MemberBinding(new This(), userField)), NodeType.Call, SystemTypes.Void)
));
// info.AddValue("Condition", _Condition);
body.Statements.Add(new ExpressionStatement(
new MethodCall(new MemberBinding(info, addValueObject), new ExpressionList(new Literal("Condition", SystemTypes.String), new MemberBinding(new This(), condField)), NodeType.Call, SystemTypes.Void)
));
body.Statements.Add(new Return());
contractExceptionType.Members.Add(getObjectData);
#endregion
}
}
this.RuntimeContractType.Members.Add(contractExceptionType);
return contractExceptionType;
}
/// <summary>
/// Constructs (and returns) a method that looks like this:
///
/// [System.Diagnostics.DebuggerNonUserCodeAttribute]
/// [System.Runtime.ConstrainedExecution.ReliabilityContractReliabilityContract(Consistency.WillNotCorruptState, Cer.MayFail)]
/// static void name(bool condition, string message, string conditionText){
/// if (!condition) {
/// System.Diagnostics.Contracts.Contract.Failure(kind, message, conditionText, null);
/// }
/// }
///
/// Or, if the ContractFailureKind is PostconditionOnException, then the generated method
/// gets an extra parameter which is an Exception and that parameter is passed to Contract.Failure instead of null
/// </summary>
private Method MakeMethod(string name, ContractFailureKind kind)
{
Parameter conditionParameter = new Parameter(Identifier.For("condition"), SystemTypes.Boolean);
Parameter messageParameter = new Parameter(Identifier.For("msg"), SystemTypes.String);
Parameter conditionTextParameter = new Parameter(Identifier.For("conditionTxt"), SystemTypes.String);
Parameter exceptionParameter = new Parameter(Identifier.For("originalException"), SystemTypes.Exception);
Block returnBlock = new Block(new StatementList(new Return()));
Block body = new Block(new StatementList());
Block b = new Block(new StatementList());
b.Statements.Add(new Branch(conditionParameter, returnBlock));
ExpressionList elist = new ExpressionList();
elist.Add(TranslateKindForBackwardCompatibility(kind));
elist.Add(messageParameter);
elist.Add(conditionTextParameter);
if (kind == ContractFailureKind.PostconditionOnException)
{
elist.Add(exceptionParameter);
}
else
{
elist.Add(Literal.Null);
}
b.Statements.Add(new ExpressionStatement(new MethodCall(new MemberBinding(null, this.FailureMethod), elist)));
b.Statements.Add(returnBlock);
body.Statements.Add(b);
ParameterList pl = new ParameterList(conditionParameter, messageParameter, conditionTextParameter);
if (kind == ContractFailureKind.PostconditionOnException)
{
pl.Add(exceptionParameter);
}
Method m = new Method(this.RuntimeContractType, null, Identifier.For(name), pl, SystemTypes.Void, body);
m.Flags = MethodFlags.Assembly | MethodFlags.Static;
m.Attributes = new AttributeList();
this.RuntimeContractType.Members.Add(m);
Member constructor = null;
AttributeNode attribute = null;
#region Add [DebuggerNonUserCodeAttribute]
if (this.HideFromDebugger) {
TypeNode debuggerNonUserCode = SystemTypes.SystemAssembly.GetType(Identifier.For("System.Diagnostics"), Identifier.For("DebuggerNonUserCodeAttribute"));
if (debuggerNonUserCode != null)
{
constructor = debuggerNonUserCode.GetConstructor();
attribute = new AttributeNode(new MemberBinding(null, constructor), null, AttributeTargets.Method);
m.Attributes.Add(attribute);
}
}
#endregion Add [DebuggerNonUserCodeAttribute]
TypeNode reliabilityContract = SystemTypes.SystemAssembly.GetType(Identifier.For("System.Runtime.ConstrainedExecution"), Identifier.For("ReliabilityContractAttribute"));
TypeNode consistency = SystemTypes.SystemAssembly.GetType(Identifier.For("System.Runtime.ConstrainedExecution"), Identifier.For("Consistency"));
TypeNode cer = SystemTypes.SystemAssembly.GetType(Identifier.For("System.Runtime.ConstrainedExecution"), Identifier.For("Cer"));
if (reliabilityContract != null && consistency != null && cer != null) {
constructor = reliabilityContract.GetConstructor(consistency, cer);
if (constructor != null) {
attribute = new AttributeNode(
new MemberBinding(null, constructor),
new ExpressionList(
new Literal(System.Runtime.ConstrainedExecution.Consistency.WillNotCorruptState, consistency),
new Literal(System.Runtime.ConstrainedExecution.Cer.MayFail, cer)),
AttributeTargets.Method
);
m.Attributes.Add(attribute);
}
}
return m;
}
private Parameter ParseParameter(TokenSet followers, bool allowRefParameters, bool namesAreOptional, bool typesAreOptional){
Parameter p = new Parameter();
p.SourceContext = this.scanner.CurrentSourceContext;
Token tok = this.currentToken;
p.Attributes = this.ParseAttributes(null, followers|Parser.ParameterTypeStart);
p.Flags = ParameterFlags.None;
bool byRef = false;
switch(this.currentToken){
case Token.Out:
//TODO: error if !allowRefParameters && typesAreOptional
p.Flags = ParameterFlags.Out;
goto case Token.Ref;
case Token.Ref:
//TODO: error if !allowRefParameters && typesAreOptional
if (!allowRefParameters)
this.HandleError(Error.IndexerWithRefParam);
byRef = true;
this.GetNextToken();
if (this.currentToken == Token.Params){
this.HandleError(Error.ParamsCantBeRefOut);
this.GetNextToken();
}
break;
case Token.Params:
//TODO: error if !allowRefParameters && typesAreOptional
Literal lit = new Literal(TypeExpressionFor("System", "ParamArrayAttribute"), null, this.scanner.CurrentSourceContext);
AttributeNode paramsAttribute = new AttributeNode(lit, null);
if (p.Attributes == null) p.Attributes = new AttributeList(1);
p.Attributes.Add(paramsAttribute);
this.GetNextToken();
if (this.currentToken == Token.Out || this.currentToken == Token.Ref){
this.HandleError(Error.ParamsCantBeRefOut);
if (this.currentToken == Token.Out) goto case Token.Out;
goto case Token.Ref;
}
break;
}
bool voidParam = false;
if (this.currentToken == Token.Void){
if (this.inUnsafeCode){
TypeNode voidT = this.TypeExpressionFor(Token.Void);
SourceContext sctx = this.scanner.CurrentSourceContext;
this.GetNextToken();
sctx.EndPos = this.scanner.endPos;
this.Skip(Token.Multiply);
p.Type = p.TypeExpression = new PointerTypeExpression(voidT, sctx);
}else{
this.HandleError(Error.NoVoidParameter);
p.Type = this.TypeExpressionFor(Token.Object);
p.TypeExpression = new TypeExpression(this.scanner.GetIdentifier(), this.scanner.CurrentSourceContext);
this.GetNextToken();
voidParam = true;
}
}else if (this.currentToken == Token.Delegate)
p.Type = p.TypeExpression = this.ParseDelegateDeclaration(null, null, null, TypeFlags.None, p.SourceContext, followers);
else if (p.Type == null){
p.Type = p.TypeExpression = this.ParseTypeExpression(null, followers|Parser.IdentifierOrNonReservedKeyword);
}
if (byRef) p.Type = p.TypeExpression = new ReferenceTypeExpression(p.Type);
if ((this.currentToken == Token.Comma || this.currentToken == Token.RightParenthesis) && p.TypeExpression is TypeExpression &&
((TypeExpression)p.TypeExpression).Expression is Identifier && typesAreOptional) {
p.Name = (Identifier)((TypeExpression)p.TypeExpression).Expression;
p.Type = p.TypeExpression = null;
}else{
p.Name = this.scanner.GetIdentifier();
}
p.SourceContext.EndPos = this.scanner.endPos;
if (!voidParam || Parser.IdentifierOrNonReservedKeyword[this.currentToken]){
if (Parser.IdentifierOrNonReservedKeyword[this.currentToken])
this.GetNextToken();
else{
if (namesAreOptional)
p.Name = Identifier.Empty;
else
this.SkipIdentifierOrNonReservedKeyword();
}
}
if (this.currentToken == Token.LeftBracket){
this.HandleError(Error.BadArraySyntax);
int endPos = this.scanner.endPos;
int rank = this.ParseRankSpecifier(true, followers|Token.LeftBracket);
if (rank > 0)
p.Type = p.TypeExpression = this.ParseArrayType(rank, p.Type, followers);
else{
this.currentToken = Token.LeftBracket;
this.scanner.endPos = endPos;
this.GetNextToken();
while (!this.scanner.TokenIsFirstAfterLineBreak &&
this.currentToken != Token.RightBracket && this.currentToken != Token.Comma && this.currentToken != Token.RightParenthesis)
this.GetNextToken();
if (this.currentToken == Token.RightBracket) this.GetNextToken();
}
}else if (this.currentToken == Token.Assign){
this.HandleError(Error.NoDefaultArgs);
this.GetNextToken();
if (Parser.UnaryStart[this.currentToken]){
this.ParseExpression(followers);
return p;
}
}
this.SkipTo(followers);
return p;
}
public DuplicatorForContractsAndClosures(Module module, Method sourceMethod, Method targetMethod,
ContractNodes contractNodes, bool mapParameters)
: base(module, targetMethod.DeclaringType)
{
this.sourceMethod = sourceMethod;
this.targetMethod = targetMethod;
this.RemoveNameForLocals = true;
Duplicator dup = this;
if (mapParameters)
{
if (sourceMethod.ThisParameter != null)
{
if (targetMethod.ThisParameter != null)
{
dup.DuplicateFor[sourceMethod.ThisParameter.UniqueKey] = targetMethod.ThisParameter;
}
else
{
// target is a static wrapper. But duplicator cannot handle This -> Parameter conversion
// so we handle it explicitly here in this visitor.
replaceThisWithParameter = targetMethod.Parameters[0];
}
}
if (sourceMethod.Parameters != null && targetMethod.Parameters != null
&& sourceMethod.Parameters.Count == targetMethod.Parameters.Count)
{
for (int i = 0, n = sourceMethod.Parameters.Count; i < n; i++)
{
dup.DuplicateFor[sourceMethod.Parameters[i].UniqueKey] = targetMethod.Parameters[i];
}
}
// This code makes sure that generic method parameters used by contracts inherited from contract class
// are correctly replaced by the one defined in the target method.
// Without this mapping <c>CheckPost</c> method in generated async closure class would contain an invalid
// reference to a generic contract method parameter instead of generic async closure type parameter.
// For more about this problem see comments for Microsoft.Contracts.Foxtrot.EmitAsyncClosure.GenericTypeMapper class
// and issue #380.
if (sourceMethod.TemplateParameters != null && targetMethod.TemplateParameters != null
&& sourceMethod.TemplateParameters.Count == targetMethod.TemplateParameters.Count)
{
for (int i = 0, n = sourceMethod.TemplateParameters.Count; i < n; i++)
{
dup.DuplicateFor[sourceMethod.TemplateParameters[i].UniqueKey] = targetMethod.TemplateParameters[i];
}
}
}
var originalType = HelperMethods.IsContractTypeForSomeOtherType(sourceMethod.DeclaringType, contractNodes);
if (originalType != null)
{
var contractType = this.contractClass = sourceMethod.DeclaringType;
while (contractType.Template != null)
{
contractType = contractType.Template;
}
while (originalType.Template != null)
{
originalType = originalType.Template;
}
// forward ContractType<A,B> -> originalType<A',B'>
this.contractClassToForward = contractType;
this.targetTypeToForwardTo = originalType;
//dup.DuplicateFor[contractType.UniqueKey] = originalType;
}
}
public void AddAsyncPost(List<Ensures> asyncPostconditions)
{
var origBody = new Block(this.checkBody);
origBody.HasLocals = true;
var newBodyBlock = new Block(new StatementList());
newBodyBlock.HasLocals = true;
var methodBody = new StatementList();
var methodBodyBlock = new Block(methodBody);
methodBodyBlock.HasLocals = true;
checkMethod.Body = methodBodyBlock;
methodBody.Add(newBodyBlock);
Block newExitBlock = new Block();
methodBody.Add(newExitBlock);
#region Map closure locals to fields and initialize closure fields
foreach (Ensures e in asyncPostconditions)
{
if (e == null) continue;
this.Visit(e);
if (this.forwarder != null) { this.forwarder.Visit(e); }
ReplaceResult repResult = new ReplaceResult(this.checkMethod, this.originalResultLocal, this.parent.assemblyBeingRewritten);
repResult.Visit(e);
// now need to initialize closure result fields
foreach (var target in repResult.NecessaryResultInitializationAsync(this.closureLocals))
{
// note: target here
methodBody.Add(new AssignmentStatement(target, this.originalResultLocal));
}
}
#endregion
#region Emit normal postconditions
SourceContext lastEnsuresSourceContext = default(SourceContext);
bool hasLastEnsuresContext = false;
bool containsExceptionalPostconditions = false;
var ensuresChecks = new StatementList();
foreach (Ensures e in asyncPostconditions)
{
// Exceptional postconditions are handled separately.
if (e is EnsuresExceptional)
{
containsExceptionalPostconditions = true;
continue;
}
if (IsVoidTask()) break; // something is wrong in the original contract
lastEnsuresSourceContext = e.SourceContext;
hasLastEnsuresContext = true;
// call Contract.RewriterEnsures
Method ensMethod = this.parent.runtimeContracts.EnsuresMethod;
ExpressionList args = new ExpressionList();
args.Add(e.PostCondition);
if (e.UserMessage != null)
args.Add(e.UserMessage);
else
args.Add(Literal.Null);
if (e.SourceConditionText != null)
{
args.Add(e.SourceConditionText);
}
else
{
args.Add(Literal.Null);
}
ensuresChecks.Add(new ExpressionStatement(
new MethodCall(new MemberBinding(null, ensMethod),
args, NodeType.Call, SystemTypes.Void), e.SourceContext));
}
this.parent.cleanUpCodeCoverage.VisitStatementList(ensuresChecks);
this.parent.EmitRecursionGuardAroundChecks(this.checkMethod, methodBodyBlock, ensuresChecks);
#endregion Normal postconditions
#region Exceptional postconditions
if (containsExceptionalPostconditions)
{
// Because async tasks wrap exceptions into Aggregate exceptions, we have to catch AggregateException
// and iterate over the internal exceptions of the Aggregate.
// We thus emit the following handler:
//
// catch(AggregateException ae) {
// ae.Handle(this.CheckException);
// rethrow;
// }
//
// alternatively, if the Task has no Result, we emit
//
// var ae = t.Exception as AggregateException;
// if (ae != null) {
// ae.Handle(this.CheckException);
// throw ae;
// }
var aggregateType = AggregateExceptionType.Value;
var exnParameter = new Parameter(Identifier.For("e"), SystemTypes.Exception);
this.checkExceptionMethod = new Method(this.closureClass, null, this.checkExceptionMethodId, new ParameterList(exnParameter), SystemTypes.Boolean, new Block(new StatementList()));
this.checkExceptionMethod.Body.HasLocals = true;
checkExceptionMethod.CallingConvention = CallingConventionFlags.HasThis;
checkExceptionMethod.Flags |= MethodFlags.Public;
this.closureClass.Members.Add(checkExceptionMethod);
if (this.IsVoidTask())
{
var blockAfterTest = new Block();
methodBody.Add(origBody);
methodBody.Add(new Branch(new UnaryExpression(this.newResultLocal, NodeType.LogicalNot), blockAfterTest));
var funcType = Func2Type.Value;
funcType = funcType.GetTemplateInstance(this.parent.assemblyBeingRewritten, SystemTypes.Exception, SystemTypes.Boolean);
var handleMethod = aggregateType.GetMethod(Identifier.For("Handle"), funcType);
var funcLocal = new Local(funcType);
var ldftn = new UnaryExpression(new MemberBinding(null, this.checkExceptionMethod), NodeType.Ldftn, CoreSystemTypes.IntPtr);
methodBody.Add(new AssignmentStatement(funcLocal, new Construct(new MemberBinding(null, funcType.GetConstructor(SystemTypes.Object, SystemTypes.IntPtr)), new ExpressionList(this.checkMethod.ThisParameter, ldftn))));
methodBody.Add(new ExpressionStatement(new MethodCall(new MemberBinding(this.newResultLocal, handleMethod), new ExpressionList(funcLocal))));
methodBody.Add(new Throw(this.newResultLocal));
methodBody.Add(blockAfterTest);
}
else
{
// The tryCatch holds the try block, the catch blocks, and an empty block that is the
// target of an unconditional branch for normal execution to go from the try block
// around the catch blocks.
if (this.checkMethod.ExceptionHandlers == null) this.checkMethod.ExceptionHandlers = new ExceptionHandlerList();
Block afterCatches = new Block(new StatementList());
Block tryCatch = newBodyBlock;
Block tryBlock = new Block(new StatementList());
tryBlock.Statements.Add(origBody);
tryBlock.Statements.Add(new Branch(null, afterCatches, false, true, true));
// the EH needs to have a pointer to this block so the writer can
// calculate the length of the try block. So it should be the *last*
// thing in the try body.
Block blockAfterTryBody = new Block(null);
tryBlock.Statements.Add(blockAfterTryBody);
tryCatch.Statements.Add(tryBlock);
// The catchBlock contains the catchBody, and then
// an empty block that is used in the EH.
Block catchBlock = new Block(new StatementList());
Local l = new Local(aggregateType);
Throw rethrow = new Throw();
rethrow.NodeType = NodeType.Rethrow;
catchBlock.Statements.Add(new AssignmentStatement(l, new Expression(NodeType.Pop)));
var funcType = Func2Type.Value;
funcType = funcType.GetTemplateInstance(this.parent.assemblyBeingRewritten, SystemTypes.Exception, SystemTypes.Boolean);
var handleMethod = aggregateType.GetMethod(Identifier.For("Handle"), funcType);
var funcLocal = new Local(funcType);
var ldftn = new UnaryExpression(new MemberBinding(null, this.checkExceptionMethod), NodeType.Ldftn, CoreSystemTypes.IntPtr);
catchBlock.Statements.Add(new AssignmentStatement(funcLocal, new Construct(new MemberBinding(null, funcType.GetConstructor(SystemTypes.Object, SystemTypes.IntPtr)), new ExpressionList(this.checkMethod.ThisParameter, ldftn))));
catchBlock.Statements.Add(new ExpressionStatement(new MethodCall(new MemberBinding(l, handleMethod), new ExpressionList(funcLocal))));
// Handle method should return if all passes
catchBlock.Statements.Add(rethrow);
// The last thing in each catch block is an empty block that is the target of
// BlockAfterHandlerEnd in each exception handler.
// It is used in the writer to determine the length of each catch block
// so it should be the last thing added to each catch block.
Block blockAfterHandlerEnd = new Block(new StatementList());
catchBlock.Statements.Add(blockAfterHandlerEnd);
tryCatch.Statements.Add(catchBlock);
// add information to the ExceptionHandlers of this method
ExceptionHandler exHandler = new ExceptionHandler();
exHandler.TryStartBlock = origBody;
exHandler.BlockAfterTryEnd = blockAfterTryBody;
exHandler.HandlerStartBlock = catchBlock;
exHandler.BlockAfterHandlerEnd = blockAfterHandlerEnd;
exHandler.FilterType = l.Type;
exHandler.HandlerType = NodeType.Catch;
this.checkMethod.ExceptionHandlers.Add(exHandler);
tryCatch.Statements.Add(afterCatches);
}
EmitCheckExceptionBody(asyncPostconditions);
}
else // no exceptional post conditions
{
newBodyBlock.Statements.Add(origBody);
}
#endregion Exceptional and finally postconditions
#region Create a block for the return statement and insert it
// this is the block that contains the return statements
// it is (supposed to be) the single exit from the method
// that way, anything that must always be done can be done
// in this block
Statement returnStatement;
if (this.IsVoidTask())
{
returnStatement = new Return();
}
else
{
returnStatement = new Return(this.newResultLocal);
}
if (hasLastEnsuresContext)
{
returnStatement.SourceContext = lastEnsuresSourceContext;
}
Block returnBlock = new Block(new StatementList(1));
returnBlock.Statements.Add(returnStatement);
methodBody.Add(returnBlock);
#endregion
}
/// <summary>
/// Checks whether a specific parameter is an "out" parameter.
/// </summary>
/// <param name="parameter">Parameter to test.</param>
/// <returns>True if "out" parameter.</returns>
public static bool IsOut(Parameter parameter)
{
return (parameter.Flags & ParameterFlags.Out) > 0 && (parameter.Flags & ParameterFlags.In) == 0;
}
public static string GetParameterTypeName(Parameter parameter, MemberNameOptions givenOptions, Scope scope) {
if (parameter == null) return "";
Reference r = parameter.Type as Reference;
TypeNode typeNode = null;
StringBuilder sb = new StringBuilder();
string backUpName = null;
if (r != null) {
if ((parameter.Flags & ParameterFlags.Out) != 0) {
if ( IsOptionActive(givenOptions, MemberNameOptions.PutParameterModifiers) ) sb.Append("out ");
typeNode = r.ElementType;
} else {
if (IsOptionActive(givenOptions, MemberNameOptions.PutParameterModifiers)) sb.Append("ref ");
typeNode = r.ElementType;
}
} else if (parameter.GetParamArrayElementType() != null) {
if (IsOptionActive(givenOptions, MemberNameOptions.PutParameterModifiers)) sb.Append("params ");
typeNode = parameter.Type;
} else {
typeNode = parameter.Type;
if (typeNode == null && parameter.TypeExpression != null)
backUpName = parameter.TypeExpression.SourceContext.SourceText;
}
sb.Append(backUpName != null ? MemberNameBuilder.GetAtPrefixedIfRequired(backUpName, givenOptions) : GetMemberNameRaw(typeNode, givenOptions, scope));
if (IsOptionActive(givenOptions, MemberNameOptions.PutParameterName) && parameter.Name!= null) {
sb.Append(' ');
sb.Append(MemberNameBuilder.GetAtPrefixedIfRequired(parameter.Name.ToString(), givenOptions));
}
return sb.ToString();
}
public override Expression VisitParameter(Parameter parameter)
{
if (parameter == null) return null;
Parameter dup = (Parameter)this.DuplicateFor[parameter.UniqueKey];
if (dup != null)
{
if (dup.DeclaringMethod == null) dup.DeclaringMethod = this.TargetMethod;
return dup;
}
this.DuplicateFor[parameter.UniqueKey] = dup = (Parameter)parameter.Clone();
if (dup.MarshallingInformation != null)
dup.MarshallingInformation = dup.MarshallingInformation.Clone();
dup.DeclaringMethod = this.TargetMethod;
return base.VisitParameter(dup);
}
public override string GetParameterSignature(ParameterField f){
if (f == null) return "";
StringBuilder result = new StringBuilder("(parameter) "); //REVIEW: localize the (parameter) part?
this.currentParameter = f.Parameter;
result.Append(this.GetTypeName(f.Type)+" "+f.Name.ToString());
return result.ToString();
}
public override Expression VisitParameter(Parameter parameter)
{
Parameter result = (Parameter)base.VisitParameter(parameter);
Reference pRefType = result.Type as Reference;
return result;
}
private Expression ParsePrimaryExpression(TokenSet followers){
Expression expression = null;
SourceContext sctx = this.scanner.CurrentSourceContext;
switch(this.currentToken){
case Token.ArgList:
this.GetNextToken();
expression = new ArglistExpression(sctx);
break;
case Token.Delegate:{
this.GetNextToken();
ParameterList parameters = null;
if (this.currentToken == Token.LeftParenthesis)
parameters = this.ParseParameters(Token.RightParenthesis, followers|Token.LeftBrace);
Block block = null;
if (this.currentToken == Token.LeftBrace)
block = this.ParseBlock(this.scanner.CurrentSourceContext, followers);
else
this.SkipTo(followers, Error.ExpectedLeftBrace);
sctx.EndPos = this.scanner.endPos;
return new AnonymousNestedDelegate(parameters, block, sctx);}
case Token.New:
expression = this.ParseNew(followers|Token.Dot|Token.LeftBracket|Token.Arrow);
break;
case Token.Identifier:
expression = this.scanner.GetIdentifier();
if (this.sink != null) {
this.sink.StartName((Identifier)expression);
}
this.GetNextToken();
if (this.currentToken == Token.DoubleColon){
this.GetNextToken();
Identifier id = this.scanner.GetIdentifier();
id.Prefix = (Identifier)expression;
id.SourceContext.StartPos = expression.SourceContext.StartPos;
expression = id;
if (this.currentToken != Token.EndOfFile)
this.GetNextToken();
}else if (this.currentToken == Token.Lambda){
Parameter par = new Parameter((Identifier)expression, null);
par.SourceContext = expression.SourceContext;
return this.ParseLambdaExpression(par.SourceContext, new ParameterList(par), followers);
}
break;
case Token.Null:
expression = new Literal(null, null, sctx);
this.GetNextToken();
break;
case Token.True:
expression = new Literal(true, null, sctx);
this.GetNextToken();
break;
case Token.False:
expression = new Literal(false, null, sctx);
this.GetNextToken();
break;
case Token.CharLiteral:
expression = new Literal(this.scanner.charLiteralValue, null, sctx);
this.GetNextToken();
break;
case Token.HexLiteral:
expression = this.ParseHexLiteral();
break;
case Token.IntegerLiteral:
expression = this.ParseIntegerLiteral();
break;
case Token.RealLiteral:
expression = this.ParseRealLiteral();
break;
case Token.StringLiteral:
expression = this.scanner.GetStringLiteral();
this.GetNextToken();
break;
case Token.This:
expression = new This(sctx, false);
if (this.sink != null) {
this.sink.StartName(expression);
}
this.GetNextToken();
if (this.currentToken == Token.LeftParenthesis
&& (this.inInstanceConstructor==BaseOrThisCallKind.None
|| this.inInstanceConstructor==BaseOrThisCallKind.InCtorBodyThisSeen)){
QualifiedIdentifier thisCons = new QualifiedIdentifier(expression, StandardIds.Ctor, this.scanner.CurrentSourceContext);
MethodCall thisConstructorCall = new MethodCall(thisCons, null, NodeType.Call);
thisConstructorCall.SourceContext = sctx;
SourceContext lpCtx = this.scanner.CurrentSourceContext;
this.Skip(Token.LeftParenthesis);
thisConstructorCall.Operands = this.ParseArgumentList(followers|Token.LeftBrace|Token.Semicolon, lpCtx, out thisConstructorCall.SourceContext.EndPos);
expression = thisConstructorCall;
this.inInstanceConstructor=BaseOrThisCallKind.InCtorBodyThisSeen;
goto done;
}
break;
case Token.Base:
Base ba = new Base(sctx, false);
expression = ba;
if (this.sink != null) {
this.sink.StartName(expression);
}
this.GetNextToken();
if (this.currentToken == Token.Semicolon &&
(this.inInstanceConstructor == BaseOrThisCallKind.ColonThisOrBaseSeen
|| this.inInstanceConstructor == BaseOrThisCallKind.None)) {
// When there are non-null fields, then the base ctor call can happen only after they are
// initialized.
// In Spec#, we allow a base ctor call in the body of the ctor. But if someone is using
// the C# comment convention, then they cannot do that.
// So allow "base;" as a marker to indicate where the base ctor call should happen.
// There may be an explicit "colon base call" or it may be implicit.
//
// Just leave expression as a bare "Base" node; later pipeline stages will all have
// to ignore it. Mark the current ctor as having (at least) one of these bad boys
// in it.
ba.UsedAsMarker = true;
this.currentCtor.ContainsBaseMarkerBecauseOfNonNullFields = true;
goto done;
}
if (this.currentToken == Token.LeftParenthesis
&& (this.inInstanceConstructor==BaseOrThisCallKind.None
|| this.inInstanceConstructor==BaseOrThisCallKind.InCtorBodyBaseSeen)){
QualifiedIdentifier supCons = new QualifiedIdentifier(expression, StandardIds.Ctor, this.scanner.CurrentSourceContext);
MethodCall superConstructorCall = new MethodCall(supCons, null, NodeType.Call);
superConstructorCall.SourceContext = sctx;
SourceContext lpCtx = this.scanner.CurrentSourceContext;
this.Skip(Token.LeftParenthesis);
superConstructorCall.Operands = this.ParseArgumentList(followers|Token.LeftBrace|Token.Semicolon, lpCtx, out superConstructorCall.SourceContext.EndPos);
expression = superConstructorCall;
this.inInstanceConstructor=BaseOrThisCallKind.InCtorBodyBaseSeen;
goto done;
}
break;
case Token.Typeof:
case Token.Sizeof:
case Token.Default:{
//if (this.currentToken == Token.Sizeof && !this.inUnsafeCode)
//this.HandleError(Error.SizeofUnsafe);
UnaryExpression uex = new UnaryExpression(null,
this.currentToken == Token.Typeof ? NodeType.Typeof : this.currentToken == Token.Sizeof ? NodeType.Sizeof : NodeType.DefaultValue);
uex.SourceContext = sctx;
this.GetNextToken();
this.Skip(Token.LeftParenthesis);
TypeNode t = null;
if (this.currentToken == Token.Void && uex.NodeType == NodeType.Typeof){
t = this.TypeExpressionFor(Token.Void); this.GetNextToken();
}else
t = this.ParseTypeExpression(null, followers|Token.RightParenthesis, false, false, uex.NodeType == NodeType.Typeof);
if (t == null){this.SkipTo(followers); return null;}
uex.Operand = new MemberBinding(null, t, t.SourceContext, null);
uex.Operand.SourceContext = t.SourceContext;
uex.SourceContext.EndPos = this.scanner.endPos;
this.Skip(Token.RightParenthesis);
expression = uex;
break;}
case Token.Stackalloc:{
this.GetNextToken();
TypeNode elementType = this.ParseBaseTypeExpression(null, followers|Token.LeftBracket, false, false);
if (elementType == null){this.SkipTo(followers); return null;}
Token openingDelimiter = this.currentToken;
if (this.currentToken != Token.LeftBracket){
this.HandleError(Error.BadStackAllocExpr);
if (this.currentToken == Token.LeftParenthesis) this.GetNextToken();
}else
this.GetNextToken();
Expression numElements = this.ParseExpression(followers|Token.RightBracket|Token.RightParenthesis);
sctx.EndPos = this.scanner.endPos;
if (this.currentToken == Token.RightParenthesis && openingDelimiter == Token.LeftParenthesis)
this.GetNextToken();
else
this.Skip(Token.RightBracket);
this.SkipTo(followers);
return new StackAlloc(elementType, numElements, sctx);}
case Token.Checked:
case Token.Unchecked:
//TODO: use NodeType.SkipCheck and NodeType.EnforceCheck
Block b = new Block(new StatementList(1), this.currentToken == Token.Checked, this.currentToken == Token.Unchecked, this.inUnsafeCode);
b.SourceContext = sctx;
this.GetNextToken();
this.Skip(Token.LeftParenthesis);
b.Statements.Add(new ExpressionStatement(this.ParseExpression(followers|Token.RightParenthesis)));
this.Skip(Token.RightParenthesis);
expression = new BlockExpression(b);
expression.SourceContext = b.SourceContext;
break;
case Token.RefType:{
this.GetNextToken();
this.Skip(Token.LeftParenthesis);
Expression e = this.ParseExpression(followers|Token.RightParenthesis);
this.Skip(Token.RightParenthesis);
expression = new RefTypeExpression(e, sctx);
break;
}
case Token.RefValue:{
this.GetNextToken();
this.Skip(Token.LeftParenthesis);
Expression e = this.ParseExpression(followers|Token.Comma);
this.Skip(Token.Comma);
TypeNode te = this.ParseTypeOrFunctionTypeExpression(followers|Token.RightParenthesis, false, true);
Expression operand2 = new MemberBinding(null, te);
if (te is TypeExpression)
operand2.SourceContext = te.SourceContext;
else
operand2.SourceContext = sctx;
this.Skip(Token.RightParenthesis);
expression = new RefValueExpression(e, operand2, sctx);
break;
}
case Token.Bool:
case Token.Decimal:
case Token.Sbyte:
case Token.Byte:
case Token.Short:
case Token.Ushort:
case Token.Int:
case Token.Uint:
case Token.Long:
case Token.Ulong:
case Token.Char:
case Token.Float:
case Token.Double:
case Token.Object:
case Token.String:
MemberBinding mb = new MemberBinding(null, this.TypeExpressionFor(this.currentToken), sctx);
this.GetNextToken();
expression = this.ParseIndexerCallOrSelector(mb, followers);
goto done;
case Token.LeftParenthesis:
expression = this.ParseParenthesizedExpression(followers|Token.Dot|Token.LeftBracket|Token.Arrow, true);
break;
default:
if (Parser.IdentifierOrNonReservedKeyword[this.currentToken]) goto case Token.Identifier;
if (Parser.InfixOperators[this.currentToken]){
this.HandleError(Error.InvalidExprTerm, this.scanner.GetTokenSource());
this.GetNextToken();
}else
this.SkipTo(followers|Parser.PrimaryStart, Error.InvalidExprTerm, this.scanner.GetTokenSource());
if (Parser.PrimaryStart[this.currentToken]) return this.ParsePrimaryExpression(followers);
goto done;
}
if (expression is Base && this.currentToken != Token.Dot && this.currentToken != Token.LeftBracket){
this.HandleError(expression.SourceContext, Error.BaseIllegal);
expression = null;
}
expression = this.ParseIndexerCallOrSelector(expression, followers|Token.AddOne|Token.SubtractOne);
for(;;){
switch(this.currentToken){
case Token.AddOne:
case Token.SubtractOne:
SourceContext ctx = expression.SourceContext;
ctx.EndPos = this.scanner.endPos;
PostfixExpression pex = new PostfixExpression(expression, Parser.ConvertToBinaryNodeType(this.currentToken), ctx);
this.GetNextToken();
expression = pex;
break;
case Token.Dot:
expression = this.ParseIndexerCallOrSelector(expression, followers|Token.AddOne|Token.SubtractOne);
break;
default:
goto done;
}
}
done:
this.SkipTo(followers);
return expression;
}
private Method MakeTriggerFailureMethod(bool throwOnFailure)
{
Parameter kindParameter = new Parameter(Identifier.For("kind"), contractNodes.ContractFailureKind);
Parameter messageParameter = new Parameter(Identifier.For("msg"), SystemTypes.String);
Parameter userMessageParameter = new Parameter(Identifier.For("userMessage"), SystemTypes.String);
Parameter conditionTextParameter = new Parameter(Identifier.For("conditionTxt"), SystemTypes.String);
Parameter exceptionParameter = new Parameter(Identifier.For("inner"), SystemTypes.Exception);
ParameterList pl = new ParameterList(kindParameter, messageParameter, userMessageParameter, conditionTextParameter, exceptionParameter);
Block body = new Block(new StatementList());
Method m = new Method(this.RuntimeContractType, null, ContractNodes.TriggerFailureName, pl, SystemTypes.Void, body);
m.Flags = MethodFlags.Assembly | MethodFlags.Static;
m.Attributes = new AttributeList();
this.RuntimeContractType.Members.Add(m);
//
// Generate the following
//
// #if throwOnFailure
// throw new ContractException(kind, message, userMessage, conditionText, inner);
// #else
// Debug.Assert(false, messageParameter);
// #endif
if (throwOnFailure)
{
ExpressionList elist = new ExpressionList();
elist.Add(kindParameter);
elist.Add(messageParameter);
elist.Add(userMessageParameter);
elist.Add(conditionTextParameter);
elist.Add(exceptionParameter);
body.Statements.Add(new Throw(new Construct(new MemberBinding(null, this.ContractExceptionCtor), elist)));
}
else
{
var sysassem = SystemTypes.SystemDllAssembly;
if (sysassem == null) {
throw new ApplicationException("Cannot find System.dll");
}
var debugType = sysassem.GetType(Identifier.For("System.Diagnostics"), Identifier.For("Debug"));
if (debugType == null)
{
throw new ApplicationException("Cannot find System.Diagnostics.Debug");
}
var assertMethod = debugType.GetMethod(Identifier.For("Assert"), SystemTypes.Boolean, SystemTypes.String);
if (assertMethod == null)
{
throw new ApplicationException("Cannot find System.Diagnostics.Debug.Assert(bool,string)");
}
ExpressionList elist = new ExpressionList();
elist.Add(Literal.False);
elist.Add(messageParameter);
body.Statements.Add(new ExpressionStatement(new MethodCall(new MemberBinding(null, assertMethod), elist)));
body.Statements.Add(new Return());
}
return m;
}
public override AttributeNode VisitParameterAttribute(AttributeNode attr, Parameter parameter) {
attr = base.VisitParameterAttribute(attr, parameter);
if (attr == null) return null;
if (attr.Type == SystemTypes.ParamArrayAttribute && attr.SourceContext.Document != null)
this.HandleError(attr, Error.ExplicitParamArray, this.GetTypeName(SystemTypes.ParamArrayAttribute));
if ((IsAdditive(attr) || IsInside(attr) || attr.Type == SystemTypes.CapturedAttribute || attr.Type == SystemTypes.NoDefaultContractAttribute)
&& parameter.Type != null && parameter.Type.IsValueType) {
this.HandleError(attr, Error.AttributeAllowedOnlyOnReferenceTypeParameters, this.GetTypeName(attr.Type));
}
if (attr.Type == SystemTypes.CapturedAttribute && parameter.IsOut) {
this.HandleError(attr, Error.AttributeNotAllowedOnlyOnInParameters, this.GetTypeName(attr.Type));
}
return attr;
}
private void EmitCheckMethod(TypeNode taskType, bool hasResult)
{
var funcType = this.continuewithMethod.Parameters[0].Type;
this.funcCtor = funcType.GetConstructor(SystemTypes.Object, SystemTypes.IntPtr);
var taskParameter = new Parameter(Identifier.For("task"), taskType);
this.originalResultLocal = new Local(taskParameter.Type);
if (hasResult)
{
this.checkMethod = new Method(this.closureClass, null, this.checkMethodId, new ParameterList(taskParameter), taskType.TemplateArguments[0], null);
checkMethod.CallingConvention = CallingConventionFlags.HasThis;
checkMethod.Flags |= MethodFlags.Public;
this.checkBody = new StatementList();
var tmpresult = new Local(checkMethod.ReturnType);
this.newResultLocal = tmpresult;
checkBody.Add(new AssignmentStatement(this.originalResultLocal, taskParameter));
checkBody.Add(new AssignmentStatement(tmpresult, new MethodCall(new MemberBinding(checkMethod.Parameters[0], checkMethod.Parameters[0].Type.GetMethod(Identifier.For("get_Result"))), new ExpressionList())));
}
else
{
this.checkMethod = new Method(this.closureClass, null, this.checkMethodId, new ParameterList(taskParameter), SystemTypes.Void, null);
checkMethod.CallingConvention = CallingConventionFlags.HasThis;
checkMethod.Flags |= MethodFlags.Public;
this.checkBody = new StatementList();
var aggregateType = AggregateExceptionType.Value;
this.newResultLocal = new Local(aggregateType);
checkBody.Add(new AssignmentStatement(this.originalResultLocal, taskParameter));
checkBody.Add(new AssignmentStatement(this.newResultLocal, new BinaryExpression(new MethodCall(new MemberBinding(checkMethod.Parameters[0], checkMethod.Parameters[0].Type.GetMethod(Identifier.For("get_Exception"))), new ExpressionList()), new MemberBinding(null, aggregateType), NodeType.Isinst)));
}
this.closureClass.Members.Add(this.checkMethod);
}
private ParameterList ParseParameters(Token closingToken, TokenSet followers, bool namesAreOptional, bool typesAreOptional){
bool arglist = false;
Debug.Assert(closingToken == Token.RightParenthesis || closingToken == Token.RightBracket);
SourceContext sctx = this.scanner.CurrentSourceContext;
if (closingToken == Token.RightParenthesis){
if (this.currentToken != Token.LeftParenthesis){
this.SkipTo(followers|Parser.UnaryStart, Error.SyntaxError, "(");
}
if (this.currentToken == Token.LeftParenthesis)
this.GetNextToken();
}else{
if (this.currentToken != Token.LeftBracket)
this.SkipTo(followers|Parser.UnaryStart, Error.SyntaxError, "[");
if (this.currentToken == Token.LeftBracket)
this.GetNextToken();
}
ParameterList result = new ParameterList();
if (this.currentToken != closingToken && this.currentToken != Token.EndOfFile){
bool allowRefParameters = closingToken == Token.RightParenthesis;
TokenSet followersOrCommaOrRightParenthesis = followers|Token.Comma|closingToken|Token.ArgList;
int counter = 0;
for (;;){
if (this.currentToken == Token.ArgList) {
Parameter ap = new Parameter(StandardIds.__Arglist, this.TypeExpressionFor(Token.Void));
ap.SourceContext = this.scanner.CurrentSourceContext;
this.GetNextToken();
arglist = true;
result.Add(ap);
break;
}
Parameter p = this.ParseParameter(followersOrCommaOrRightParenthesis, allowRefParameters, namesAreOptional, typesAreOptional);
if (namesAreOptional && p != null && p.Name == Identifier.Empty){
p.Name = new Identifier("p"+counter++);
if (p.Type != null)
p.Name.SourceContext = p.Type.SourceContext;
}
if (typesAreOptional && p != null && p.Type == null) allowRefParameters = false;
result.Add(p);
if (this.currentToken == Token.Comma)
this.GetNextToken();
else
break;
}
}
if (closingToken == Token.RightBracket) {
if (result.Count == 0)
this.HandleError(Error.IndexerNeedsParam);
else if (arglist) {
this.HandleError(result[result.Count-1].SourceContext, Error.NoArglistInIndexers);
result.Count = result.Count-1;
}
}
if (this.currentToken == closingToken){
if (this.sink != null)
this.sink.MatchPair(sctx, this.scanner.CurrentSourceContext);
this.GetNextToken();
this.SkipTo(followers);
}else{
this.SkipTo(followers, closingToken==Token.RightBracket ? Error.ExpectedRightBracket : Error.ExpectedRightParenthesis);
}
return result;
}
/// <summary>
/// Tries to reuse or create the attribute
/// </summary>
private static InstanceInitializer GetRuntimeContractsAttributeCtor(AssemblyNode assembly)
{
EnumNode runtimeContractsFlags = assembly.GetType(ContractNodes.ContractNamespace, Identifier.For("RuntimeContractsFlags")) as EnumNode;
Class RuntimeContractsAttributeClass = assembly.GetType(ContractNodes.ContractNamespace, Identifier.For("RuntimeContractsAttribute")) as Class;
if (runtimeContractsFlags == null)
{
#region Add [Flags]
Member flagsConstructor = RewriteHelper.flagsAttributeNode.GetConstructor();
AttributeNode flagsAttribute = new AttributeNode(new MemberBinding(null, flagsConstructor), null, AttributeTargets.Class);
#endregion Add [Flags]
runtimeContractsFlags = new EnumNode(assembly,
null, /* declaringType */
new AttributeList(2),
TypeFlags.Sealed,
ContractNodes.ContractNamespace,
Identifier.For("RuntimeContractsFlags"),
new InterfaceList(),
new MemberList());
runtimeContractsFlags.Attributes.Add(flagsAttribute);
RewriteHelper.TryAddCompilerGeneratedAttribute(runtimeContractsFlags);
runtimeContractsFlags.UnderlyingType = SystemTypes.Int32;
Type copyFrom = typeof(RuntimeContractEmitFlags);
foreach (System.Reflection.FieldInfo fi in copyFrom.GetFields())
{
if (fi.IsLiteral)
{
AddEnumValue(runtimeContractsFlags, fi.Name, fi.GetRawConstantValue());
}
}
assembly.Types.Add(runtimeContractsFlags);
}
InstanceInitializer ctor = (RuntimeContractsAttributeClass == null) ? null : RuntimeContractsAttributeClass.GetConstructor(runtimeContractsFlags);
if (RuntimeContractsAttributeClass == null)
{
RuntimeContractsAttributeClass = new Class(assembly,
null, /* declaringType */
new AttributeList(),
TypeFlags.Sealed,
ContractNodes.ContractNamespace,
Identifier.For("RuntimeContractsAttribute"),
SystemTypes.Attribute,
new InterfaceList(),
new MemberList(0));
RewriteHelper.TryAddCompilerGeneratedAttribute(RuntimeContractsAttributeClass);
assembly.Types.Add(RuntimeContractsAttributeClass);
}
if (ctor == null) {
Block returnBlock = new Block(new StatementList(new Return()));
Block body = new Block(new StatementList());
Block b = new Block(new StatementList());
ParameterList pl = new ParameterList();
Parameter levelParameter = new Parameter(Identifier.For("contractFlags"), runtimeContractsFlags);
pl.Add(levelParameter);
ctor = new InstanceInitializer(RuntimeContractsAttributeClass, null, pl, body);
ctor.Flags = MethodFlags.Assembly | MethodFlags.HideBySig | MethodFlags.SpecialName | MethodFlags.RTSpecialName;
Method baseCtor = SystemTypes.Attribute.GetConstructor();
b.Statements.Add(new ExpressionStatement(new MethodCall(new MemberBinding(null, baseCtor), new ExpressionList(ctor.ThisParameter))));
b.Statements.Add(returnBlock);
body.Statements.Add(b);
RuntimeContractsAttributeClass.Members.Add(ctor);
}
return ctor;
}
private static bool FieldAssociatedWithParameter(Field field, Method originalMethod, out Parameter p)
{
string fname = field.Name.Name;
if (fname.EndsWith("__this"))
{
// check that it is not a nested one
if (fname.Length > 8 && !fname.Substring(2, fname.Length - 8).Contains("__"))
{
p = originalMethod.ThisParameter;
return true;
}
}
foreach (Parameter par in originalMethod.Parameters)
{
string pname = par.Name.Name;
if (fname == pname)
{
p = par;
return true;
}
}
p = null;
return false;
}
public virtual Expression VisitParameter(Parameter parameter)
{
if (parameter == null) return null;
parameter.Attributes = this.VisitAttributeList(parameter.Attributes);
parameter.Type = this.VisitTypeReference(parameter.Type);
parameter.DefaultValue = this.VisitExpression(parameter.DefaultValue);
ParameterBinding pb = parameter as ParameterBinding;
if (pb != null)
{
Parameter par = this.VisitParameter(pb.BoundParameter) as Parameter;
if (par != null)
pb.BoundParameter = par;
}
return parameter;
}
public override Expression CoerceArgument(Expression argument, Parameter parameter) {
Expression result = base.CoerceArgument(argument, parameter);
if (result != null) {
Reference r = parameter.Type as Reference;
if (r != null) {
UnaryExpression unexp = argument as UnaryExpression;
if (parameter.IsOut) {
if (unexp == null) {
if (argument.SourceContext.Document != null)
this.HandleError(argument, Error.NoImplicitConversion, this.typeSystem.GetTypeName(r.ElementType), this.typeSystem.GetTypeName(r));
} else {
if (unexp.NodeType == NodeType.RefAddress)
this.HandleError(argument, Error.NoImplicitConversion, "ref " + this.typeSystem.GetTypeName(r.ElementType), this.typeSystem.GetTypeName(r));
else if (unexp.NodeType != NodeType.OutAddress)
this.HandleError(argument, Error.NoImplicitConversion, this.typeSystem.GetTypeName(r.ElementType), this.typeSystem.GetTypeName(r));
}
} else {
if (unexp == null) {
if (argument.SourceContext.Document != null)
this.HandleError(argument, Error.NoImplicitConversion, this.typeSystem.GetTypeName(r.ElementType), this.typeSystem.GetTypeName(r));
} else {
if (unexp.NodeType == NodeType.OutAddress)
this.HandleError(argument, Error.NoImplicitConversion, "out " + this.typeSystem.GetTypeName(r.ElementType), this.typeSystem.GetTypeName(r));
else if (unexp.NodeType != NodeType.RefAddress)
this.HandleError(argument, Error.NoImplicitConversion, this.typeSystem.GetTypeName(r.ElementType), this.typeSystem.GetTypeName(r));
}
}
} else if (!(parameter.Type is Reference)) {
if (argument.NodeType == NodeType.OutAddress)
this.HandleError(((UnaryExpression)argument).Operand, Error.BadArgExtraRef, (parameter.ParameterListIndex + 1).ToString(), "out");
else if (argument.NodeType == NodeType.RefAddress)
this.HandleError(((UnaryExpression)argument).Operand, Error.BadArgExtraRef, (parameter.ParameterListIndex + 1).ToString(), "ref");
}
}
// Special case to handle arglist when the parameter is a params object[]
// and the argument constains __arglist(). We will flatten that __arglist.
// This is an effort to simulate CSC.
// Note, if passing an __arglist and an object for params object[], CSC generates
// invalid code while we are ok. See SingSharpConformance.Suite.
TypeNode maybeObjectType = parameter.GetParamArrayElementType();
if (maybeObjectType == SystemTypes.Object) {
result = FlattenArglist(result);
}
return result;
}
public override Expression VisitParameter(Parameter parameter)
{
if (parameter == null) return null;
Write("{0}", GetParameterDirection(parameter.Flags));
this.VisitTypeReference(parameter.Type);
Write(" ");
if (parameter.DefaultValue != null)
throw new ArgumentException("Unexpected parameter default value");
Write("{0}", parameter.Name.Name);
return parameter;
}
private static TypeNode IsConstrainedTypeVariable(Parameter target)
{
if (target == null) return null;
Reference r = target.Type as Reference;
if (r == null) return null;
if (!(r.ElementType is ITypeParameter)) return null;
return r.ElementType;
}
